Regulator for regulating carbon-nitrogen ratio in crops and preparation method thereof

A carbon-nitrogen ratio, crop technology, applied in nitrogen fertilizer, agriculture, liquid fertilizer and other directions, can solve problems such as stress resistance decline, crop quality decline, crop disease, etc., to promote operation and balance utilization, improve product quality grade, improve The effect of plant disease resistance

Inactive Publication Date: 2019-03-08
马金晶
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In the current agricultural production process, due to the introduction of western chemical fertilizers in the middle and late 1960s, the more chemical fertilizers are applied in the three major element fertilizers (urea, potassium fertilizer, and phosphorus fertilizer), the faster the carbon nutrient in the soil will be lost. , the faster the soil compacts, the less the soil organic matter content will drop, resulting in serious diseases during the growth of crops, barren land, and the decline in the original quality of crops
For example, if the application of urea is too much, the leaves of the plants and crops will be light yellow, the stress resistance will be reduced, and the resistance to diseases and insect pests will be reduced, which will affect the growth of plants and cause severe crop yield reduction.
[0003] In addition, due to the extensive use of pesticides and herbicides, especially in mountainous areas, the long-term use of "glyphosate" has inhibited the growth of crops during the growth process, severely reduced biological production, and killed crops.

Method used

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  • Regulator for regulating carbon-nitrogen ratio in crops and preparation method thereof
  • Regulator for regulating carbon-nitrogen ratio in crops and preparation method thereof
  • Regulator for regulating carbon-nitrogen ratio in crops and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 8

[0036] Embodiment 8 sprays the carbon-nitrogen ratio regulator of embodiment 1-7, observes the output of tealeaves

[0037] This embodiment adopts 10 mu of tea gardens of Puzheng Liang's family in Zhongzhai, Manlian Village, Nanping Town, Simao District, Pu'er City.

[0038] Experimental group: prepare 7 mu of tea gardens, spray the carbon-nitrogen ratio regulator of embodiment 1-7 respectively in every mu of tea gardens, use 15 type sprayers at every turn, spray a bucket of configuration liquid (one bucket of 15L) per mu;

[0039] Blank control group: prepare 3 mu of tea gardens, spray an equal amount of water in the tea gardens, use a 15-type sprayer each time, and spray a bucket of configuration liquid per mu (one bucket of 15L);

[0040] 2. Spraying time: three times a year.

[0041] The first time: 15 days after pruning from December 20th to 25th every year, that is, spray once from January 5th to 10th of the next year;

[0042] The second time: Spray once from April 25...

Embodiment 9

[0055] Example 9 Spray the carbon-nitrogen ratio regulator of Example 1 to observe the disease resistance of tea leaves

[0056] This embodiment adopts 10 mu of tea gardens of Pu Zhengliang's family in Zhongzhai Society, Manlian Village, Nanping Town, Simao District, Pu'er City, Yunnan Province. The 10-acre tea garden is sprayed 1-3 times a year with the carbon-nitrogen ratio regulator of plant crops, and the tea can be picked until early December. The carbon-nitrogen ratio regulator of plant crops is sprayed 1-2 times a year, and the tea leaves can be picked until November mid.

[0057] Before 2014, 100 tea plants in this 10-acre tea garden had been infected with diseases (Verticillium wilt, mosaic disease, root rot disease, anthrax).

[0058]Since 2015, after starting to use the plant and crop carbon-nitrogen ratio regulators of Examples 1-5, until 2017, the above four kinds of tea diseases have basically been controlled, and the diseased plants are recovering. During the t...

Embodiment 10

[0063] Experimental group: Since 2015, the carbon-nitrogen ratio regulator in Example 1 has been tested and demonstrated in the tea garden (10 mu) contracted by Xu Ping's family in Zhongzhai Society, Manlian Village, Nanping Town, Simao District, Pu'er City, Yunnan Province. From January 10, 2015, the carbon-nitrogen ratio regulator was sprayed for the first time, with a 15L sprayer, spraying one barrel per mu. Spraying for the second time on April 30, 2015, and spraying for the third time on August 10, 2015.

[0064] Blank control group: Spray water on the tea garden (10 mu) contracted by Xu Ping's family in Zhongzhai Society, Manlian Village, Nanping Town, Simao District, Pu'er City, Yunnan Province. From January 10, 2015, the spray configuration liquid was used for the first time, with a 15L sprayer, spraying one barrel per mu. Spraying for the second time on April 30, 2015, and spraying for the third time on August 10, 2015.

[0065] The result is as figure 2 As shown,...

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Abstract

The invention discloses a regulator for regulating a carbon-nitrogen ratio in crops. The regulator comprises the following components in parts by weight: 1 part of white sugar, 1 part of urea, and 95-110 parts of water. The invention also discloses a preparation method of the regulator for regulating the carbon-nitrogen ratio, which comprises the following steps: preparing white sugar, urea and water according to the parts by weight, and then uniformly stirring the components. The invention also discloses plant regulating powder used as the regulator for regulating the carbon-nitrogen ratio incrops, which comprises the following components in parts by weight: 1 part of white sugar, and 1 part of urea. The regulator for regulating the carbon-nitrogen ratio, provided by the invention, can balance the carbon-nitrogen ratio in a plant, promote operation and balanced utilization of various nutrients in the plant, obviously thicken cuticles of stems and leaves, obviously improve the qualityof fruits, restore original high-quality characters of the plant, enhance a protection function of the plant, and enhance photosynthesis of crops, so that the regulator is an energy activator for enhancing the production potential of crops, can improve disease resistance of plants and improve a quality grade of a product, and can increase the yield by 30-100%.

Description

technical field [0001] The invention relates to the technical field of crop planting, in particular to a carbon-nitrogen ratio regulator in crops and a preparation method thereof. Background technique [0002] In the current agricultural production process, due to the introduction of western chemical fertilizers in the middle and late 1960s, the more chemical fertilizers are applied in the three major element fertilizers (urea, potassium fertilizer, and phosphorus fertilizer), the faster the carbon nutrient in the soil will be lost. , the faster the soil compacts, the less the soil organic matter content will drop, resulting in serious diseases during the growth of crops, barren land, and the decline in the original quality of crops. For example, if the amount of urea is too much, the leaves of the plants and crops will be light yellow, the stress resistance will be reduced, and the resistance to diseases and insect pests will be reduced, which will affect the growth of plan...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C05G1/00
CPCC05C9/00C05G5/20C05F11/00
Inventor 马金晶
Owner 马金晶
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